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The Instructor's Manual has been revised and updated to include a bank of 660 multiple-choice questions as well as calculation banks for reinforcement of mathematical technique skills, all of which may be copied for use on assignments and tests. Answers to all chapter review questions are provided, including 24 laboratory exercises. This manual will serve as an excellent study guide and will be an invaluable teaching tool to the instructor using the new Eight Edition of PRACTICAL RADIOGRAPHIC IMAGING.
This book presents a comprehensive introduction to the principles and techniques of radiographic imaging. The physics principles that are the foundation of radiography are explained clearly, with numerous illustrations, examples and solved problems to aid comprehension. Chapters are organized into six units: Creating the Beam, Protecting Patients and Personnel, Creating the Image, Analyzing the Image, Comparing Exposure Systems, and Special Imaging Systems, Specialized imaging modalities, such as mammography, magnetic resonance imaging, and computed tomography, are explained in individual chapters.
This eighth edition is a major revision and update of Fuch 's Radiographic Exposure and Quality Control including a title change. The book is a most expansive and comprehensive text on radiographic exposure and imaging, encompassing the vast and intricate changes that have taken place in the field. As with previous editions, the book is intended to complement radiographic physics texts rather than duplicate them, and all chapters on conventional radiography have been fully revised to reflect state-of-the-art imaging technology. Part I, Producing the Radiographic Image, presents chapters on x-rays and radiographic variables, recording the permanent image, qualities of the image, and interactions of x-rays within the patient. Part II, Visibility Factors, includes chapters on milliampere-seconds, kilovoltage-peak, machine phase and rectification, beamfiltration, field size limitation, patient status and contrast agents, pathology and casts, scattered radiation and image fog, grids, intensifying screens, and image receptor systems. Part III, Geometrical factors, discusses focal spot size, the anode bevel, source-image receptor distance, object-image receptor distance, distance ratios, beam-part-film-alignment, geometric functions of positioning, and motion. Part IV, Comprehensive Technique, presents chapters on analyzing the radiographic image, simplifying and standardizing technique, technique by proportional anatomy, technique charts, exposure controls, patient dose, quality control, and solving multiple technique problems. Part V, Special Imaging Methods, includes a concise overview of computers, the nature of digital images and the fundamental processes common to all digital imaging systems. Specific applications follow, including digital conversion of film images, DR, DF, CR, and image reconstruction in CT and MRI. The methods of Three-Dimensional Imaging are then introduced with beautiful illustration. The application of lasers in digitizing images and printing hard copies is reviewed, ending with a balanced discussion of PACS and digital teleradiology. CR and DR provides thorough coverage of the image matrix, pixel size, and fields of view, gray scale enhancement and spatial resolution, followed by an excellent discussion of CRT image qualities including horizontal and vertical resolution, contrast, dynamic range, and signal-to-noise ratio. Exposure and reading of the photostimulable phosphor plate is nicely illustrated. Clear presentations on windowing concepts, smoothing, edge enhancement, equalization, the digital workstation and display station are given. Part VI, Processing the Radiograph, completes the text with chapters on digital processing applications, practical applications for CR, automatic processors, film handling and duplication procedures, and sensitometry and darkroom quality control. Each chapter concludes with an examination that will help the student review materials and put them into perspective. Multiple choice, fill-in-the-blank, and identification/explanation questions are all included. This book is by far the best available for schools that are focused on the practical application of radiographic technique.
This multidimensional online course supplement enhances students' understanding of radiographic imaging through an exciting range of visual, auditory, and interactive elements that amplify course content, synthesize concepts, reinforce learning, and demonstrate practical applications. Interactive tools reinforce learning, featuring a variety of student and instructor communications options, interactive exercises, illustrations, animations and slide shows with audio narration, and instructor administrative tools. Students may log on, complete lessons, and take quizzes and exams online - the program records their results! Using the course management system (WebCT or Blackboard), instructors can tailor the program's content to the specific needs of their course. *Notice to Customer* This is an instructor-led tool, and can only be accessed once an instructor establishes a course instance. Customers who order this online product will receive a booklet that contains the access code to the course in 5 to 7 business days. This package contains the User Guide and Access Code for Mosby's Radiography Online: Radiographic Imaging as well as the text and workbook/lab manual for Bushong: Radiologic Science for Technologists: Physics, Biology and Protection, 8th edition.